Method of Making Chilled Nutritional Emulsions

a nutritional emulsion and chilling technology, applied in the field of chilling nutritional emulsions, can solve the problems of reducing the general sensory acceptance of beverages, difficult processing, unsatisfactory thin or watery texture, etc., and achieves the effects of thick and creamy texture or mouthfeel, low viscosity, and high viscosity

Inactive Publication Date: 2009-06-25
ABBOTT LAB INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0011]The various embodiments of the present invention provide nutritional emulsions that have a lower viscosity during processing and storage, but also have a surprisingly higher viscosity when chilled. As a chilled beverage, the nutritional emulsions also have a surprisingly thick and creamy texture or mouthfeel.

Problems solved by technology

These low calorie formulas often contain reduced fat concentrations, which can have an undesirably thin or watery texture unless additional ingredients are added to affect product viscosity.
These soluble fibers, however, can make processing more difficult, especially since the higher resulting viscosity also requires a longer and more severe sterilization process to produce an acceptable level of heat penetration.
The use of severe heat treatment during sterilization may result in an increase in the production of Maillard reaction products that may affect the color and flavor of the beverage and may, therefore, decrease the general sensory acceptance of the beverage.
The use of a high level of soluble fibers may also actually destabilize emulsions and impart a slimy mouthfeel to the beverage.
Because of the many variables associated with emulsion processing, including various heating and shearing steps, it is difficult to maintain the granular structure of the starch and thus control the viscosity of the resulting emulsion.
And like soluble fiber, starch itself can also make processing more difficult, especially since the higher resulting viscosity also requires a longer and more severe sterilization process to produce an acceptable level of heat penetration.
And finally, although there may be low fat or low calorie nutritional emulsions from the prior art that have been formulated with relatively high viscosities, such higher viscosities will not completely mask or make up for the thin or watery mouthfeel associated with a reduced fat content.

Method used

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Examples

Experimental program
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Effect test

examples

[0072]The following examples represent specific embodiments within the scope of the present invention, each of which is given solely for the purpose of illustration and is not to be construed as limitations of the present invention, as many variations thereof are possible without departing from the spirit and scope of the invention. All exemplified amounts are weight percentages based upon the total weight of the composition, unless otherwise specified.

examples 1-3

[0073]Nutritional emulsion embodiments of the present invention are prepared by combining the following ingredients in accordance with the method embodiments of the present invention.

Example 1Example 2Example 3AmountAmountAmountIngredient(kg)(kg)(kg)Protein in water slurry (PIW)Water373.37373.37373.37Milk protein isolate60.6660.6660.66Whey protein concentrate4.004.004.00Carbohydrate slurry (CHO)Water130.60130.60130.60Potassium Citrate3.443.443.44Na Citrate1.091.091.09Ultra Trace Mineral / Trace0.5440.5440.544Mineral premixPotassium Iodide0.000150.000150.00015Myverol ™ 18-06232(Monoacylglycerols)Maltodextrin DE 1 (DP 100)203040Micronized tricalcium phosphate2.222.222.22Mg Phosphate Dibasic2.572.572.57Fructooligosaccharide powder8.708.708.70Soy Fiber4.004.004.00Apple Fiber4.004.004.00Fructose23.2023.2023.20Sucrose16.2016.2016.20Protein in Fat / Oil (PIF)Soy Oil14.4414.4414.44Canola Oil4.814.814.81Corn Oil6.086.086.08Soy Lecithin1.771.771.77Vitamin Premix0.1350.1350.135Carrageenan0.3000.30...

examples 4-6

[0077]Examples 1-3 are repeated and, instead of retort sterilization, the resulting nutritional emulsions are aseptically packaged into 8 oz plastic containers. The packaged nutritional emulsions are characterized by the presence of an aqueous phase having a V-complex comprising the food grade surfactant complexed with the selected maltodextrin or starch component, or by the presence within the aqueous phase of at least about 10% by weight of the food grade surfactant and at least about 10% by weight of the polydextrose (maltodextrin or starch). The aseptically packaged products are then labeled with instruction to cool or refrigerate prior to use.

[0078]Each of the resulting retort packaged nutritional emulsions (Examples 1-3) has a viscosity as measured at 20° C. of between about 20 and 160 cps. Each is refrigerated to between 0° and 8° C. and develops a chilled viscosity of between about 220 and about 350 cps that is then consumed as chilled. The chilled emulsion has a thick, crea...

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PUM

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Abstract

Disclosed is a method of preparing a nutritional emulsion, said method comprising (a) forming an aqueous slurry, substantially free of fat, by combining a food grade surfactant with a polydextrose having an average degree of polymerization of at least about 10; (b) combining and homogenizing the aqueous slurry with fat and protein to form a nutritional emulsion having an aqueous phase comprising from about 10% to 100% by weight of the food grade surfactant and from about 10% to 100% by weight of the polydextrose, wherein the nutritional emulsion has a first viscosity of less than about 300 cps as measured at 20° C. and a second viscosity as measured at between about 0° C. and about 8° C. that is at least 50 cps higher than the first viscosity. The resulting nutritional emulsion may be further characterized by the presence of a V-complex formed by the combination of the food grade surfactant and the polydextrose. The nutritional emulsions develop a surprisingly thick and creamy texture when chilled prior to use.

Description

FIELD OF THE INVENTION[0001]The present invention relates to chilled nutritional emulsions, and methods of making them, having improved viscosity and mouthfeel characteristics.BACKGROUND OF THE INVENTION[0002]There are many nutritional beverages that are commercially available today, and still more yet that are not readily available to consumers but are described in the literature or otherwise well known in the nutritional beverage art. These beverages typically contain combinations of fat, protein, carbohydrate, vitamins, and minerals, often as part of a milk-based emulsion.[0003]Some of these nutritional beverages contain reduced caloric densities to thus provide a low calorie food product for use in helping to maintain a healthy body weight. These low calorie formulas often contain reduced fat concentrations, which can have an undesirably thin or watery texture unless additional ingredients are added to affect product viscosity.[0004]One method for increasing the viscosity of nut...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A23L1/035A23J3/00A23L1/09A23L29/10
CPCA23L1/035A23L1/3088A23L1/296A23L29/10A23L33/26A23L33/40
Inventor LAI, CHRON-SI
Owner ABBOTT LAB INC
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